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SubjectRe: /drivers/char/n_tty.c drops characters
> Maybe my interpretation of this statement is incorrect but
> is Alan implying that ttys will no longer drop charaters ?
> if this is what Alan is saying it is simply not true but it can be implemented.

The current queue code will not drop characters queued to the line
discipline unless we are in extreme circumstances [64K queued on this
tty, out of memory]

> My understanding of this code might be imperfect but this really looks
> likes this blindly copies into a ring buffer of N_TTY_BUF_SIZE &
> doesn't return any indication an attempt to copy a tty buffer of larger than N_TTY_BUF_SIZE
> & overflows the buffer before the task activated by the code at the bottom of n_tty_receive_buf

There is no check needed. See flush_to_ldisc

if (count > tty->receive_room)
count = tty->receive_room;

So if we are dropping characters on this path it means
tty->receive_room is either getting set too large or the n_tty driver is
shrinking it by more than the bytes it gets a some point.

Most of the network drivers actually just set it to "send everything" as
they want overruns on the serial side to drop bytes to get proper TCP
queueing but n_tty does try to manage the value.

> My main complaints are
> 1) there is no mechanism for informing the tty layer that not all the
> characters are copied from the tty layer to the line discipline.

The tty layer doesn't need to know. What will the tty driver do if it
finds this - queue bytes ? We already queue bytes in the core code now
for up to 64K. Flow control ? - it is late for flow control at that point,
and the core code already provides flow control callbacks.

> 2) The use of a a ring buffer in the line discipline,
> we are memcpying at least twice in the kernel before passing the
> buffer back to userland.

For n_tty this really does not worry me. n_tty is not a performance
critical path for any use I know of. For the ppp layer we do a copy from
the tty buffers to the socket buffers and we have to do that to unpack
the async padding. That one is the one that bothers me more. I'm willing
to be enlightened however.

We do try to keep all the transfers cache-hot. In theory you could tweak
the ldisc code so that the tty_buffer object ownership is transferred to
the ldisc which then frees the buffer back when it is done. That may have
possibilities.

> 3) There is no mechanism for tty_io.c of informing the
> char driver which is feeding the tty that it can
> release flow control & start feeding read buffers
> to the device hardware again to restart io.

driver->ops->unthrottle()

I am not 100% certain we call throttle early enough and unthrottle
at times appropriate for devices with large internal buffers like some of
the USB hardware but those are points that can be adjusted.



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